import {Zcl} from "zigbee-herdsman";

import * as fz from "../converters/fromZigbee";
import * as tz from "../converters/toZigbee";
import * as exposes from "../lib/exposes";
import * as reporting from "../lib/reporting";
import type {DefinitionWithExtend, Fz, KeyValue, Tz} from "../lib/types";
import * as utils from "../lib/utils";

const e = exposes.presets;
const ea = exposes.access;

const manufacturerOptions = {manufacturerCode: Zcl.ManufacturerCode.PLUGWISE_B_V};

const plugwisePushForce = {
    0: "standard",
    393216: "high",
    458752: "very_high",
};

const plugwiseRadioStrength = {
    0: "normal",
    1: "high",
};

const fzLocal = {
    plugwise_radiator_valve: {
        cluster: "hvacThermostat",
        type: ["attributeReport", "readResponse"],
        convert: (model, msg, publish, options, meta) => {
            const result = fz.thermostat.convert(model, msg, publish, options, meta) as KeyValue;

            // Reports pIHeatingDemand between 0 and 100 already
            if (typeof msg.data.pIHeatingDemand === "number") {
                result.pi_heating_demand = utils.precisionRound(msg.data.pIHeatingDemand, 0);
            }

            if (typeof msg.data[0x4003] === "number") {
                result.current_heating_setpoint = utils.precisionRound(msg.data[0x4003], 2) / 100;
            }
            if (typeof msg.data[0x4008] === "number") {
                result.plugwise_t_diff = msg.data[0x4008];
            }
            if (typeof msg.data[0x4002] === "number") {
                result.error_status = msg.data[0x4002];
            }
            if (typeof msg.data[0x4001] === "number") {
                result.valve_position = msg.data[0x4001];
            }
            return result;
        },
    } satisfies Fz.Converter,
};

const tzLocal = {
    plugwise_calibrate_valve: {
        key: ["calibrate_valve"],
        convertSet: async (entity, key, value, meta) => {
            await entity.command("hvacThermostat", "plugwiseCalibrateValve", {}, {srcEndpoint: 11, disableDefaultResponse: true});
            return {state: {calibrate_valve: value}};
        },
    } satisfies Tz.Converter,
    plugwise_valve_position: {
        key: ["plugwise_valve_position", "valve_position"],
        convertSet: async (entity, key, value, meta) => {
            const payload = {16385: {value, type: 0x20}};
            await entity.write("hvacThermostat", payload, manufacturerOptions);
            // Tom does not automatically send back updated value so ask for it
            await entity.read("hvacThermostat", [0x4001], manufacturerOptions);
        },
        convertGet: async (entity, key, meta) => {
            await entity.read("hvacThermostat", [0x4001], manufacturerOptions);
        },
    } satisfies Tz.Converter,
    plugwise_push_force: {
        key: ["plugwise_push_force", "force"],
        convertSet: async (entity, key, value, meta) => {
            const val = utils.getKey(plugwisePushForce, value, value, Number);
            const payload = {16402: {value: val, type: 0x23}};
            await entity.write("hvacThermostat", payload, manufacturerOptions);
        },
        convertGet: async (entity, key, meta) => {
            await entity.read("hvacThermostat", [0x4012], manufacturerOptions);
        },
    } satisfies Tz.Converter,
    plugwise_radio_strength: {
        key: ["plugwise_radio_strength", "radio_strength"],
        convertSet: async (entity, key, value, meta) => {
            const val = utils.getKey(plugwiseRadioStrength, value, value, Number);
            const payload = {16404: {value: val, type: 0x10}};
            await entity.write("hvacThermostat", payload, manufacturerOptions);
        },
        convertGet: async (entity, key, meta) => {
            await entity.read("hvacThermostat", [0x4014], manufacturerOptions);
        },
    } satisfies Tz.Converter,
};

export const definitions: DefinitionWithExtend[] = [
    {
        zigbeeModel: ["160-01"],
        model: "160-01",
        vendor: "Plugwise",
        description: "Plug power socket on/off with power consumption monitoring",
        fromZigbee: [fz.on_off, fz.metering],
        toZigbee: [tz.on_off],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "seMetering"]);
            await reporting.onOff(endpoint);
            await reporting.readMeteringMultiplierDivisor(endpoint);
            await reporting.instantaneousDemand(endpoint);
        },
        exposes: [e.switch(), e.power(), e.energy()],
    },
    {
        zigbeeModel: ["106-03"],
        model: "106-03",
        vendor: "Plugwise",
        description: "Tom thermostatic radiator valve",
        fromZigbee: [fz.temperature, fz.battery, fzLocal.plugwise_radiator_valve],
        // sytem_mode and occupied_heating_setpoint is not supported: https://github.com/Koenkk/zigbee2mqtt.io/pull/1666
        toZigbee: [
            tz.thermostat_pi_heating_demand,
            tzLocal.plugwise_valve_position,
            tzLocal.plugwise_push_force,
            tzLocal.plugwise_radio_strength,
            tzLocal.plugwise_calibrate_valve,
        ],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genBasic", "genPowerCfg", "hvacThermostat"]);
            await reporting.batteryPercentageRemaining(endpoint);
            await reporting.thermostatTemperature(endpoint);
            await reporting.thermostatPIHeatingDemand(endpoint);
        },
        exposes: [
            e.battery(),
            e
                .numeric("pi_heating_demand", ea.STATE_GET)
                .withValueMin(0)
                .withValueMax(100)
                .withUnit("%")
                .withDescription("Position of the valve (= demanded heat) where 0% is fully closed and 100% is fully open"),
            e.numeric("local_temperature", ea.STATE).withUnit("°C").withDescription("Current temperature measured on the device"),
            e
                .numeric("valve_position", ea.ALL)
                .withValueMin(0)
                .withValueMax(100)
                .withDescription("Directly control the radiator valve. The values range from 0 (valve closed) to 100 (valve fully open)"),
            e
                .enum("force", ea.ALL, ["standard", "high", "very_high"])
                .withDescription("How hard the motor pushes the valve. The closer to the boiler, the higher the force needed"),
            e.enum("radio_strength", ea.ALL, ["normal", "high"]).withDescription("Transmits with higher power when range is not sufficient"),
            e.binary("calibrate_valve", ea.STATE_SET, "calibrate", "idle").withDescription("Calibrates valve on next wakeup"),
        ],
    },
    {
        zigbeeModel: ["158-01"],
        model: "158-01",
        vendor: "Plugwise",
        description: "Lisa zone thermostat",
        fromZigbee: [fz.thermostat, fz.temperature, fz.battery],
        toZigbee: [tz.thermostat_system_mode, tz.thermostat_occupied_heating_setpoint],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genBasic", "genPowerCfg", "hvacThermostat"]);
            await reporting.batteryPercentageRemaining(endpoint);
            await reporting.thermostatTemperature(endpoint);
        },
        exposes: [
            e.battery(),
            e
                .climate()
                .withSetpoint("occupied_heating_setpoint", 5, 30, 0.5, ea.ALL)
                .withLocalTemperature(ea.STATE)
                .withSystemMode(["off", "auto"], ea.ALL),
        ],
    },
];
